A parts-combining method having high quality or yield for a product having a large number of parts. First entering an identification number group of nondefective completed products, a table of a product identification number group and a parts identification number group, a characteristic data group of parts A with respect to identification numbers of the parts A and a characteristic data group of parts B with respect to identification numbers of the parts B, and calculating a nondefective product space. Before a new product is manufactured, entering a characteristic data group of parts A with respect to identification numbers of the parts A and a characteristic data group of parts B with respect to identification numbers of the parts B, and conducting calculations on statistical distances and combinatorial computations between the parts. Finally outputting a combination table having the identification numbers of both the parts A and the parts B.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for manufacturing a product formed by combining a plurality of parts, the method comprising the steps of: storing identification numbers which uniquely identify the parts in association with characteristic values of the parts into a storage region; after the plurality of parts have been assembled into the product, storing the identification numbers of the parts in association with an identification number of the product into the storage region; after reading out the characteristic values of the parts from storage means by searching for the parts by an identification number of a product which has already been completed and judged to be a nondefective product, calculating a nondefective product space beforehand from the characteristic values that have been read out; before a new product is manufactured, selecting desired combinations of the parts usable to manufacture the product from all possible combinations of the usable parts scheduled to be assembled into the product, and calculating statistical distances from the characteristic values of the usable parts and from the nondefective product space; and after adopting, from a plurality of methods of selecting a plurality of parts from the usable parts associated with the desired combinations, a selection method in which a maximum value of the statistical distances which have been calculated in relation to the usable parts within each desired combination becomes the smallest of all the statistical distances, deciding to assemble into the new product the usable parts associated with the combination which has been selected using the selection method and manufacturing the product.
2. The method according to claim 1 , wherein, in the step of deciding to assemble into the new product the usable parts associated with the selected combination, a selection method that minimizes a mean value of the statistical distances which have been calculated in relation to the usable parts within the desired combinations is adopted from the plurality of methods of selecting a plurality of parts from the usable parts associated with each desired combination.
3. The method according to claim 1 , wherein Mahalanobis distances are used as the statistical distances.
4. The method according to claim 2 , wherein Mahalanobis distances are used as the statistical distances.
5. A method for combining parts which are assembled into a product to be formed with a plurality of parts, the method comprising the steps of: storing identification numbers which uniquely identify the parts in association with characteristic values of the parts into a storage region; after the plurality of parts have been assembled into the product, storing the identification numbers of the parts in association with an identification number of the product into the storage region; after reading out the characteristic values of the parts from storage means by searching for the parts by an identification number of a product which has already been completed and judged to be a nondefective product, calculating a nondefective product space beforehand from the characteristic values that have been read out; before a new product is manufactured, selecting desired combinations of the parts usable to manufacture the product from all possible combinations of the usable parts scheduled to be assembled into the product, and calculating statistical distances from the characteristic values of the usable parts and from the nondefective product space; and after adopting, from a plurality of methods of selecting a plurality of parts from the usable parts associated with the desired combinations, a selection method in which a maximum value of the statistical distances which have been calculated in relation to the usable parts within each desired combination becomes the smallest of all the statistical distances, deciding to assemble into the new product the usable parts associated with the combination which has been selected using the selection method and combining the selected usable parts.
6. The method according to claim 5 , wherein, in the step of deciding to assemble into the new product the usable parts associated with the selected combination, a selection method that minimizes a mean value of the statistical distances which have been calculated in relation to the usable parts within the desired combinations is adopted from the plurality of methods of selecting a plurality of parts from the usable parts associated with each desired combination.
7. The method according to claim 5 , wherein Mahalanobis distances are used as the statistical distances.
8. The method according to claim 6 , wherein Mahalanobis distances are used as the statistical distances.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
August 31, 2006
May 6, 2008
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